<script>

    /**
     * Particleground
     *
     * @author Jonathan Nicol - @mrjnicol
     * @version 1.0.1
     * @description Creates a canvas based particle system background
     *
     * Inspired by:
     * http://requestlab.fr/
     * http://disruptivebydesign.com/
     *
     * @license The MIT License (MIT)
     *
     * Copyright (c) 2014 Jonathan Nicol - @mrjnicol
     *
     * Permission is hereby granted, free of charge, to any person obtaining a copy
     * of this software and associated documentation files (the "Software"), to deal
     * in the Software without restriction, including without limitation the rights
     * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
     * copies of the Software, and to permit persons to whom the Software is
     * furnished to do so, subject to the following conditions:
     *
     * The above copyright notice and this permission notice shall be included in
     * all copies or substantial portions of the Software.
     *
     * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
     * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
     * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
     * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
     * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
     * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
     * THE SOFTWARE.
     */
    !function (a) {
        function b(b, d) {
            function e() {
                if (w) {
                    $canvas = a('<canvas class="pg-canvas"></canvas>'), v.prepend($canvas), p = $canvas[0], q = p.getContext("2d"), f();
                    for (var b = Math.round(p.width * p.height / d.density), c = 0; b > c; c++) {
                        var e = new l;
                        e.setStackPos(c), x.push(e)
                    }
                    a(window).on("resize", function () {
                        h()
                    }), a(document).on("mousemove", function (a) {
                        y = a.pageX, z = a.pageY
                    }), B && !A && window.addEventListener("deviceorientation", function () {
                        D = Math.min(Math.max(-event.beta, -30), 30), C = Math.min(Math.max(-event.gamma, -30), 30)
                    }, !0), g(), o("onInit")
                }
            }

            function f() {
                p.width = v.width(), p.height = v.height(), q.fillStyle = d.dotColor, q.strokeStyle = d.lineColor, q.lineWidth = d.lineWidth
            }

            function g() {
                if (w) {
                    s = a(window).width(), t = a(window).height(), q.clearRect(0, 0, p.width, p.height);
                    for (var b = 0; b < x.length; b++)x[b].updatePosition();
                    for (var b = 0; b < x.length; b++)x[b].draw();
                    E || (r = requestAnimationFrame(g))
                }
            }

            function h() {
                for (f(), i = x.length - 1; i >= 0; i--)(x[i].position.x > v.width() || x[i].position.y > v.height()) && x.splice(i, 1);
                var a = Math.round(p.width * p.height / d.density);
                if (a > x.length)for (; a > x.length;) {
                    var b = new l;
                    x.push(b)
                } else a < x.length && x.splice(a);
                for (i = x.length - 1; i >= 0; i--)x[i].setStackPos(i)
            }

            function j() {
                E = !0
            }

            function k() {
                E = !1, g()
            }

            function l() {
                switch (this.stackPos, this.active = !0, this.layer = Math.ceil(3 * Math.random()), this.parallaxOffsetX = 0, this.parallaxOffsetY = 0, this.position = {
                    x: Math.ceil(Math.random() * p.width),
                    y: Math.ceil(Math.random() * p.height)
                }, this.speed = {}, d.directionX) {
                    case"left":
                        this.speed.x = +(-d.maxSpeedX + Math.random() * d.maxSpeedX - d.minSpeedX).toFixed(2);
                        break;
                    case"right":
                        this.speed.x = +(Math.random() * d.maxSpeedX + d.minSpeedX).toFixed(2);
                        break;
                    default:
                        this.speed.x = +(-d.maxSpeedX / 2 + Math.random() * d.maxSpeedX).toFixed(2), this.speed.x += this.speed.x > 0 ? d.minSpeedX : -d.minSpeedX
                }
                switch (d.directionY) {
                    case"up":
                        this.speed.y = +(-d.maxSpeedY + Math.random() * d.maxSpeedY - d.minSpeedY).toFixed(2);
                        break;
                    case"down":
                        this.speed.y = +(Math.random() * d.maxSpeedY + d.minSpeedY).toFixed(2);
                        break;
                    default:
                        this.speed.y = +(-d.maxSpeedY / 2 + Math.random() * d.maxSpeedY).toFixed(2), this.speed.x += this.speed.y > 0 ? d.minSpeedY : -d.minSpeedY
                }
            }

            function m(a, b) {
                return b ? void(d[a] = b) : d[a]
            }

            function n() {
                v.find(".pg-canvas").remove(), o("onDestroy"), v.removeData("plugin_" + c)
            }

            function o(a) {
                void 0 !== d[a] && d[a].call(u)
            }

            var p, q, r, s, t, u = b, v = a(b), w = !!document.createElement("canvas").getContext, x = [], y = 0, z = 0, A = !navigator.userAgent.match(/(iPhone|iPod|iPad|Android|BlackBerry|BB10|mobi|tablet|opera mini|nexus 7)/i), B = !!window.DeviceOrientationEvent, C = 0, D = 0, E = !1;
            return d = a.extend({}, a.fn[c].defaults, d), l.prototype.draw = function () {
                q.beginPath(), q.arc(this.position.x + this.parallaxOffsetX, this.position.y + this.parallaxOffsetY, d.particleRadius / 2, 0, 2 * Math.PI, !0), q.closePath(), q.fill(), q.beginPath();
                for (var a = x.length - 1; a > this.stackPos; a--) {
                    var b = x[a], c = this.position.x - b.position.x, e = this.position.y - b.position.y, f = Math.sqrt(c * c + e * e).toFixed(2);
                    f < d.proximity && (q.moveTo(this.position.x + this.parallaxOffsetX, this.position.y + this.parallaxOffsetY), d.curvedLines ? q.quadraticCurveTo(Math.max(b.position.x, b.position.x), Math.min(b.position.y, b.position.y), b.position.x + b.parallaxOffsetX, b.position.y + b.parallaxOffsetY) : q.lineTo(b.position.x + b.parallaxOffsetX, b.position.y + b.parallaxOffsetY))
                }
                q.stroke(), q.closePath()
            }, l.prototype.updatePosition = function () {
                if (d.parallax) {
                    if (B && !A) {
                        var a = (s - 0) / 60;
                        pointerX = (C - -30) * a + 0;
                        var b = (t - 0) / 60;
                        pointerY = (D - -30) * b + 0
                    } else pointerX = y, pointerY = z;
                    this.parallaxTargX = (pointerX - s / 2) / (d.parallaxMultiplier * this.layer), this.parallaxOffsetX += (this.parallaxTargX - this.parallaxOffsetX) / 10, this.parallaxTargY = (pointerY - t / 2) / (d.parallaxMultiplier * this.layer), this.parallaxOffsetY += (this.parallaxTargY - this.parallaxOffsetY) / 10
                }
                switch (d.directionX) {
                    case"left":
                        this.position.x + this.speed.x + this.parallaxOffsetX < 0 && (this.position.x = v.width() - this.parallaxOffsetX);
                        break;
                    case"right":
                        this.position.x + this.speed.x + this.parallaxOffsetX > v.width() && (this.position.x = 0 - this.parallaxOffsetX);
                        break;
                    default:
                        (this.position.x + this.speed.x + this.parallaxOffsetX > v.width() || this.position.x + this.speed.x + this.parallaxOffsetX < 0) && (this.speed.x = -this.speed.x)
                }
                switch (d.directionY) {
                    case"up":
                        this.position.y + this.speed.y + this.parallaxOffsetY < 0 && (this.position.y = v.height() - this.parallaxOffsetY);
                        break;
                    case"down":
                        this.position.y + this.speed.y + this.parallaxOffsetY > v.height() && (this.position.y = 0 - this.parallaxOffsetY);
                        break;
                    default:
                        (this.position.y + this.speed.y + this.parallaxOffsetY > v.height() || this.position.y + this.speed.y + this.parallaxOffsetY < 0) && (this.speed.y = -this.speed.y)
                }
                this.position.x += this.speed.x, this.position.y += this.speed.y
            }, l.prototype.setStackPos = function (a) {
                this.stackPos = a
            }, e(), {option: m, destroy: n, start: k, pause: j}
        }

        var c = "particleground";
        a.fn[c] = function (d) {
            if ("string" == typeof arguments[0]) {
                var e, f = arguments[0], g = Array.prototype.slice.call(arguments, 1);
                return this.each(function () {
                    a.data(this, "plugin_" + c) && "function" == typeof a.data(this, "plugin_" + c)[f] && (e = a.data(this, "plugin_" + c)[f].apply(this, g))
                }), void 0 !== e ? e : this
            }
            return "object" != typeof d && d ? void 0 : this.each(function () {
                a.data(this, "plugin_" + c) || a.data(this, "plugin_" + c, new b(this, d))
            })
        }, a.fn[c].defaults = {
            minSpeedX: .1,
            maxSpeedX: .7,
            minSpeedY: .1,
            maxSpeedY: .7,
            directionX: "center",
            directionY: "center",
            density: 1e4,
            dotColor: "#666666",
            lineColor: "#666666",
            particleRadius: 7,
            lineWidth: 1,
            curvedLines: !1,
            proximity: 100,
            parallax: !0,
            parallaxMultiplier: 5,
            onInit: function () {
            },
            onDestroy: function () {
            }
        }
    }(jQuery), /**
     * requestAnimationFrame polyfill by Erik M枚ller. fixes from Paul Irish and Tino Zijdel
     * @see: http://paulirish.com/2011/requestanimationframe-for-smart-animating/
     * @see: http://my.opera.com/emoller/blog/2011/12/20/requestanimationframe-for-smart-er-animating
     * @license: MIT license
     */
            function () {
                for (var a = 0, b = ["ms", "moz", "webkit", "o"], c = 0; c < b.length && !window.requestAnimationFrame; ++c)window.requestAnimationFrame = window[b[c] + "RequestAnimationFrame"], window.cancelAnimationFrame = window[b[c] + "CancelAnimationFrame"] || window[b[c] + "CancelRequestAnimationFrame"];
                window.requestAnimationFrame || (window.requestAnimationFrame = function (b) {
                    var c = (new Date).getTime(), d = Math.max(0, 16 - (c - a)), e = window.setTimeout(function () {
                        b(c + d)
                    }, d);
                    return a = c + d, e
                }), window.cancelAnimationFrame || (window.cancelAnimationFrame = function (a) {
                    clearTimeout(a)
                })
            }();
</script>